Antipyresis due to centrally administered vasopressin differentially alters thermoregulatory effectors depending on the ambient temperature

The intracerebroventricular (i.c.v.) administration of arginine vasopressin (AVP), in the febrile rat elicits an antipyresis at cold, warm and neutral ambient temperatures. These experiments were conducted, therefore, to elucidate the thermoregulatory effector mechanisms responsible for this antipyretic effect. At 25 degrees C, AVP-induced antipyresis was mediated by tail skin vasodilation while metabolic rate was unaffected. At 4 degrees C, the antipyresis produced by AVP was approximately double that seen at 25 degrees C. This effect appeared to be mediated exclusively by inhibition of heat production since the metabolic rate decreased markedly following AVP. This antipyresis at 4 degrees C was accompanied by cutaneous vasoconstriction. At 32 degrees C, neither vasomotor tone, metabolic rate nor evaporative heat loss could be shown to contribute to the small antipyretic effect elicited by AVP. We conclude from these data that i.c.v. AVP is producing antipyresis by affecting the febrile body temperature set-point mechanism since the thermoregulatory strategy to lose heat varies at different ambient temperatures and the decrease in body temperature cannot be shown to be due to changes in a single effector mechanism.     

Sensitivity of hypothalamic sites to salicylate and prostaglandin.

This study was designed to determine the dose of salicylate necessary to produce substantial antipyresis, and to determine the relationship between the response to salicylate and prostaglandin infused into the same region of the preoptic area of the rabbit. The effect of preoptic infusions of three doses of sodium salicylate, or a control solution, on the fever produced by an intravenous injection of endogenous pyrogen was measured. The pyrogenic response to prostaglandin E1 injected into the same preoptic sites in the same rabbits was also monitored. The results showed that the 50 microgram/microL per hour dose of salicylate did not produce significant antipyresis but that the 100 and 200 microgram/microL per hour doses did. The results also showed a significant correlation between the magnitude of fever produced by prostaglandin E1 and the magnitude of antipyresis produced by sodium salicylate at a particular site. Those sites at which infusion of salicylate produced the most effective antipyresis were also the ones at which prostaglandin E1 produced the largest fevers.     

Heat loss from the human head during exercise

Evaporative and convective heat loss from head skin and expired air were measured in four male subjects at rest and during incremental exercise at 5, 15, and 25 degrees C ambient temperature (Ta) to verify whether the head can function as a heat sink for selective brain cooling. The heat losses were measured with an open-circuit method. At rest the heat loss from head skin and expired air decreased with increasing Ta from 69 +/- 5 and 37 +/- 18 (SE) W (5 degrees C) to 44 +/- 25 and 26 +/- 7 W (25 degrees C). At a work load of 150 W the heat loss tended to increase with increasing Ta: 119 +/- 21 (head skin) and 82 +/- 5 W (respiratory tract) at 5 degrees C Ta to 132 +/- 27 and 103 +/- 12 W at 25 degrees C Ta. Heat loss was always higher from the head surface than from the respiratory tract. The heat losses, separately and together (total), were highly correlated to the increasing esophageal temperature at 15 and 25 degrees C Ta. At 5 degrees C Ta on correlation occurred. The results showed that the heat loss from the head was larger than the heat brought to the brain by the arterial blood during hyperthermia, estimated to be 45 W per 1 degree C increase above normal temperature, plus the heat produced by the brain, estimated to be up to 20 W. The total heat to be lost is therefore approximately 65 W during a mild hyperthermia (+1 degrees C) if brain temperature is to remain constant.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of apomorphine on thermoregulatory responses of rats to different ambient temperatures.

Either systemic or central administration of apomorphine produced dose-related decreases in rectal temperature at ambient temperatures (Ta) of 8 and 22 degrees C in rats. At Ta = 8 degrees C, the hypothermia was brought about by a decrease in metabolic rate (M). At Ta = 22 degrees C, the hypothermia was due to an increase in mean skin temperature, an increase in respiratory evaporative heat loss (Eres) and a decrease in M. This increased mean skin temperature was due to increased tail and foot skin temperatures. However, at Ta = 29 degrees C, apomorphine produced increased rectal temperatures due to increased M and decreased Eres. Moreover, the apomorphine-induced hypothermia or hyperthermia was antagonized by either haloperidol or 6-hydroxydopamine, but not by 5,6-dihydroxytryptamine. The data indicate that apomorphine acts on dopamine neurons within brain, with both pre- and post-synaptic sites of action, to influence body temperature.     

Pharmacological analysis of the mechanisms involved in the tachycardic and vasopressor responses to the antimigraine agent, isometheptene, in pithed rats

The present study set out to investigate the pharmacological profile of the cardiovascular responses induced by the antimigraine agent, isometheptene, in pithed rats. For this purpose, intravenous (i.v.) administration of blocking doses of the antagonists prazosin (alpha1; 100 microg/kg), rauwolscine (alpha2; 300 microg/kg), the combination of prazosin (100 microg/kg) plus rauwolscine (300 microg/kg), propranolol (beta; 1000 microg/kg), ritanserin (5-HT2; 100 microg/kg) or equivalent volumes of saline (1 ml/kg) were used. Isometheptene (0.03, 0.1, 0.3, 1 and 3 mg/kg, i.v.) produced dose-dependent increases in heart rate and diastolic blood pressure which were highly reproducible as they remained unaltered after saline. These tachycardic responses to isometheptene remained unaffected after prazosin, rauwolscine, ritanserin or the combination prazosin plus rauwolscine, but were abolished after propranolol. In contrast, the isometheptene-induced vasopressor responses were not significantly modified after the above doses of rauwolscine, ritanserin or propranolol, but were markedly blocked after prazosin or the combination of prazosin plus rauwolscine; the latter blockade did not significantly differ from that produced by prazosin alone. Interestingly, in rats pretreated intraperitoneally (i.p.) with reserpine (5 mg/kg; -24 h), isometheptene-induced tachycardic responses were abolished whereas the corresponding vasopressor responses were markedly attenuated and subsequently blocked by prazosin. It is concluded that isometheptene-induced tachycardic responses seem to involve only an indirect (tyramine-like action) mechanism mediated by beta-adrenoceptors, whilst the corresponding vasopressor responses are mediated by a predominantly indirect (tyramine-like action), as well as a minor direct (alpha1-adrenoceptors), sympathomimetic mechanism.     

Model for understanding thermal hysteresis during heat stress: a matter of direction

Thermal hysteresis may be used to quantify and characterize the amount of heat stress an animal experiences. Heat stress studies of farm animals suggest that above a certain threshold body temperature (Tb) is driven by ambient temperature (Ta). Patterns in the Tb-Ta phase diagram indicate the presence of hysteresis. When hysteresis is present, there are two values for Tb depending on whether Ta is increasing or decreasing. A theoretical delay-relay model is proposed to illustrate the hysteretic dynamics of the Tb-Ta relationship when Ta is cyclic. Two types of hysteresis, transitional and thermal, are identified. Thermal hysteresis becomes prominent when Ta forces Tb into an elliptical limit cycle. The area of the ellipse is an indication of the animal’s heat load. Also, the resulting Tb-Ta pattern depends on the delay (or lag) between Tb and Ta. The delay suggests possible levels of heat stress. A greater delay between Tb and Ta indicates more time is needed to dissipate the heat load, implying the animal is suffering more heat stress. For a given Ta, the Tb on the decreasing (recovery) path is always higher than the Tb on the increasing (challenge) path. Essentially, the animal requires more energy to dissipate heat than to absorb it.     

Mechanism of action of physical antipyresis in the rat

To study the mechanism of action of physical antipyresis, core temperature was measured in two groups of rats in which heat loss was increased by cold exposure and by cooling an inferior cava heat exchanger, respectively, both before and after infection with Salmonella enteritidis. Cold exposure did not influence core temperature. On the other hand, cooling the heat exchanger caused a fall in core temperature of approximately 0.7 degree C, to 37 degrees C in normothermia and to 38.5 degrees C 24 h after the infection. These lower core temperatures were then regulated against any further increase in heat loss until the thermoregulatory metabolic capacity of the animals was exhausted and a hypothermia developed. It is concluded that in infectious fever the threshold temperature of shivering increases as much as core temperature. Furthermore it is suggested that physical antipyresis, such as sponging with tepid water, induces a moderate but regulated fall in temperature to about the threshold of shivering and that its efficacy may increase with ambient temperature.     

Central vasopressin V1-blockade prevents salicylate but not acetaminophen antipyresis

Recent evidence has suggested that the endogenous antipyretic arginine vasopressin (AVP) may participate in drug-induced antipyresis. This study sought to further those investigations by comparing the effects of two other antipyretic drugs, sodium salicylate and acetaminophen, administered intraperitoneally, during AVP V1-receptor blockade within the ventral septal area (VSA) of the rat brain. During endotoxin-evoked fever, V1-receptor blockade within the VSA of the conscious unrestrained rat significantly antagonized the antipyretic effects of salicylate. The effects of the V1-antagonist on salicylate-induced antipyresis were dose related. In contrast, the antipyresis elicited by acetaminophen was unaffected by VSA V1-antagonist pretreatment. Neither saline nor the V1-antagonist microinjected into the VSA of febrile or nonfebrile rats had any significant effects on the normal progression of endotoxin fever or normal core temperature, respectively. These data suggest that the mechanism of action of salicylate-induced antipyresis includes activation of AVP V1-type receptors within the VSA, as has been shown for indomethacin. However, the lack of effect of the V1-antagonist on antipyresis induced by acetaminophen indicates that not all antipyretic drugs act through the same mechanism in the brain.     

两个小麦14-3-3基因的特征、亚细胞定位及其对非生物胁迫的响应(英文)

为了探讨14-3-3基因在小麦逆境胁迫应答中的调控作用,利用RACE技术克隆了两个包含完整编码框的14-3-3基因(命名为Ta14R1和Ta14R2),其中Ta14R1 cDNA长999 bp,编码262个氨基酸,而Ta14R2 cDNA长897 bp,编码261个氨基酸。Ta14R1/Ta14R2-GFP融合载体瞬时表达结果显示,Ta14R1和Ta14R2蛋白均定位于细胞质和细胞膜,但不在叶绿体中。荧光定量PCR分析表明,Ta14R1和Ta14R2均在萌发1 d的胚芽鞘中表达量最高;在高温、低温、模拟干旱和ABA处理下,两个基因在小麦的根和叶中都受胁迫诱导而且显著上调表达,推测这两个14-3-3基因通过依赖ABA的非生物胁迫响应途径发挥作用,可能参与了小麦中高温、低温和干旱胁迫的耐受调节过程。     

Temperature regulation in adult quail (Colinus virginianus) during acute thermal stress

1. Evaporative heat loss, O2 consumption, CO2 production, and internal body temperature were measured in unanesthetized, unrestrained bobwhite (Colinus virginianus) at specific ambient temperatures (Ta). 2. No significant change in body temperature occurred at any Ta tested, but metabolic heat production (H) increased from 42.17 W/m2 at Ta 35 degrees C to 102.89 W/m2 at Ta 10 degrees C. 3. Evaporative heat loss (E) increased approximately two-fold from Ta 10-35 degrees C, with E/H increasing exponentially over the same temperature range. 4. No significant change in thermal insulation occurred from Ta 10-30 degrees C. 5. Combined convective and radiative heat transfer for the bobwhite was 2.96 W/m2 X C from Ta 10-35 degrees C.     

Effects of passive heat adaptation and moderate sweatless conditioning on responses to cold and heat

Two series of experiments were performed in physically untrained subjects. In series A (heat adaptation, HA), seven male subjects were adapted to dry heat (five consecutive days at 55 degrees C ambient air temperature (Ta) for 1 h X day-1) under resting conditions. Before and after HA, the subjects' shivering responses were determined in a cold test (Ta + 10 to 0 degrees C). In series B, eight male subjects underwent mild exercise training (five consecutive days at a heart rate, HR, of 120 b X min-1) under Ta conditions individually adjusted (Ta + 15 to +5 degrees C) to prevent both sweating and cold sensations. Before and after "sweatless training", the subjects were subjected to a combined cold and heat test. During HA the thresholds for shivering, cutaneous vasodilatation (thumb and forearm) and sweating were shifted significantly (p less than 0.05) towards lower mean body temperatures (Tb). The mean decrease in threshold Tb was 0.36 degrees C. "Sweatless training" resulted in a mean increase in work rate (at HR 120 b X min-1) and oxygen pulse of 13 and 8%, respectively. However, "sweatless training" did not change the threshold Tb for shivering or sweating. Neither HA nor "sweatless training" changed the slopes of the relationships of shivering and sweating to Tb. It is concluded that the previously reported lowering of shivering and sweating threshold Tb in long-distance runners is not due to an increased fitness level, but is essentially identical with HA. The decreased shivering threshold following HA is interpreted as "cross adaptation" produced by the stressors cold and heat.     

Up-regulation of serotonergic binding sites labeled by [3H]WB4101 following fimbrial transection and 5,7-dihydroxytryptamine-induced lesions

Lesions of the serotonergic afferents to the hippocampus, by fimbrial transection or by 5,7-dihydroxytryptamine treatment, produce an increase in the Bmax of [3H]WB4101 to its nanomolar affinity binding site, with no effect on its picomolar affinity binding site or on [3H]prazosin binding. The nanomolar site is serotonergic as the serotonergic agonists, serotonin and 8-hydroxydipropylaminotetraline (8-OH-DPAT) have nanomolar affinity for [3H]WB4101 binding when studied in the presence of a prazosin mask (30 nM) of the alpha-1 component of [3H]WB4101 binding. The serotonin receptor antagonists metergoline, lysergic acid diethylamide and lisuride also have high nanomolar affinities while ketanserin, yohimbine, prazosin and noradrenergic agonists have affinities in the micromolar range. Fimbrial transection or 5,7-dihydroxytryptamine injections produced 32% and 44% increases in the Bmax of [3H]WB4101 binding in the presence of a prazosin mask. Serotonin competition for [3H]WB4101 binding was identical in control and experimental tissue from each lesion experiment. Although specific binding of [3H]WB4101 was increased, there was no change in the affinities or the percentages of the two binding components for serotonin competition with [3H]WB4101. These data suggest that removal of the serotonergic input to the hippocampus produces an increase in the Bmax of serotonin receptor binding sites labeled by [3H]WB4101.     

Heart rate responses to cooling in emu hatchlings

Among fluctuations of instantaneous heart rate (IHR) in newly hatched chicks, heart rate (HR) oscillation with a mean frequency of 0.7 Hz has been designated as Type II HR variability characterized by low frequency (LF) oscillation [Comp. Biochem. Physiol. Part A 124 (1999) 461]. In response to exposure to lowered ambient temperature (Ta), chick hatchlings raised their HR baseline accompanied with the production or augmentation of Type II HR oscillation, indicating that LF oscillation is a phenomenon relating to thermoregulation [J. Therm. Biol. 26 (2001) 281]. In emu hatchlings that are precocial like chickens, Type II HR oscillation also occurred, but less frequently in comparison with chick hatchlings [Comp. Biochem. Physiol. Part A 131 (2002) 787]. This present experiment was conducted to elucidate how IHR of emu hatchlings responds to changes in Ta. Six hatchlings were measured for IHR and skin temperature (Ts) during a 3-h period when they were exposed to controlled Ta (ca. 35 degrees C), lowered Ta (ca. 15-30 degrees C) and again the controlled Ta for individual 1-h periods. In response to all the cooling and re-warming procedures, HR baseline changed depending upon the intensity of the Ta differences; i.e. large differences of Ta produced large changes in HR. HR fluctuations tended to augment during cooling with a few exceptions, but LF oscillation was not produced. Thus, LF oscillation, which was scarce even at the controlled Ta, could not be used as a thermoregulatory indicator in emus.     

Heat loss responses in rats acclimated to heat loaded intermittently

The present study examined the heat loss response of heat-acclimated rats to direct body heating with an intraperitoneal heater or to indirect warming by elevating the ambient temperature (Ta). The heat acclimation of the rats was attained through exposure to Ta of 33 or 36 degrees C for 5 h daily during 15 consecutive days. Control rats were kept at Ta of 24 degrees C for the same acclimation period. Heat acclimation lowered the body core temperature at Ta of 24 degrees C, and the core temperature level was lowered as acclimation temperature increased. When heat was applied by direct body heating, the threshold hypothalamic temperature (Thy) for the tail skin vasodilation was also lower in heat-acclimated rats than in the control rats. However, the amount of increase in Thy from the resting level to the threshold was the same in all three groups. When heat was applied by indirect warming, threshold Thy was slightly higher in heat-acclimated than in control rats. The amount of increase in Thy from the resting level to the threshold was significantly greater in heat-acclimated rats. In addition, Ta and the skin temperature at the onset of skin vasodilation were significantly higher in heat-acclimated rats. The results indicate that heat-acclimated rats were less sensitive to the increase in skin temperature in terms of threshold Thy. The gain constant of nonevaporative heat loss response was assessed by plotting total thermal conductance against Thy.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of cold and capsaicin desensitization on prostaglandin E hypothermia in rats

Intraperitoneal injection of prostaglandin E1 (PGE) produces a transient hypothermia in rats that lasts 1-2 h. Rats exposed to an ambient temperature (Ta) of 26 degrees C displayed a decrease in rectal temperature (Tre) of 0.95 +/- 0.12 degrees C (SE) after injection with PGE (100 micrograms/kg ip). Hypothermia was produced mainly by heat losses, as indicated by increases in tail blood flow. At Ta of 4 degrees C, PGE produced a comparable fall in Tre of 1.00 +/- 0.14 degrees C. However, in the cold the hypothermia was caused solely by decreases in heat production. These results indicate that the PGE-induced hypothermia is not the result of a peripheral vasodilation induced by the direct action of PGE on the tail vascular smooth muscle but is a central nervous system-mediated response of the thermoregulatory system induced by PGE within the peritoneal cavity. Capsaicin injected subcutaneously induces a transient hypothermia in rats because of stimulation of the warm receptors. If administered peripherally in sufficient amounts, it is reputed to impair peripheral warm receptors so that they become desensitized to the hypothermic effects of capsaicin. We measured PGE-induced hypothermias in rats both before and after capsaicin desensitization at Ta of 26 degrees C. Before desensitization the hypothermia was -1.14 +/- 0.12 degrees C, whereas after capsaicin treatment the PGE-induced hypothermia was -0.34 +/- 0.17 degrees C. The biological effects of capsaicin are diverse; however, based on current thinking about the thermoregulatory effects of capsaicin desensitization, our results indicate that peripheral warm receptor pathways are in some manner implicated in the hypothermia induced by intraperitoneal PGE.     

Inhibition of hepatic alpha 1-adrenergic effects and binding by phorbol myristate acetate

Treatment of isolated hepatocytes with the tumor-promoting agent, 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (PMA) produced a time- and dose-dependent, non-competitive inhibition of alpha 1-adrenergic responses, including the activation of phosphorylase, increase in Ca2+ efflux, increase in free cytosolic Ca2+, and release of myo-inositol-1,4,5-P3. The actions of [8-arginine] vasopressin (AVP) on liver cells were also inhibited by PMA, but the inhibition could be overcome by high AVP concentrations. No significant inhibition of beta-adrenergic and glucagon-mediated activation of phosphorylase was induced by PMA and no inhibitory or synergistic effects of PMA were observed on the dose-dependent activation of phosphorylase by the Ca2+ ionophore A23187. In radioligand binding studies, PMA did not directly interfere with [3H]prazosin specific binding, the displacement of [3H]prazosin by (-)-norepinephrine nor with [3H]AVP specific binding to purified liver plasma membranes. Plasma membranes prepared from livers perfused with PMA exhibited a 30-44% reduction in [3H]prazosin binding capacity. Under identical conditions [3H]AVP binding was unchanged. The alpha 1-receptors remaining in membranes from PMA-treated livers had equivalent affinities for [3H]prazosin and (-)-norepinephrine, and were unaffected in terms of coupling to guanine nucleotide-regulating proteins as indicated by the ability of guanosine 5'-(beta, gamma-imido)triphosphate to promote the conversion of the remaining alpha 1-receptors into a low affinity state. These data indicate that tumor promoters are potent antagonists of alpha 1-adrenergic and vasopressin (low dose) responses in liver. It is proposed that PMA acting via protein kinase C (which presumably mediates the action of PMA) exerts its inhibitory action on alpha 1-adrenergic responses at the alpha 1-adrenergic receptor itself and also at a site close to or before myo-inositol-1,4,5-P3 release.     

Effect of long-term prazosin treatment on certain humoral and metabolic factors in patients with primary hypertension]

An effect of the long-term prazosin therapy on sympathetic activity, renin plasma activity and beta-endorphin and lipid blood levels was investigated in 23 patients with the primary arterial blood hypertension. Group A included 18 patients treated with prazosin, and group B - 5 patients treated with prazosin combined with propranolol. Mean daily dose of prazosin in group A was 3.0-10.0 +/- 1.3 mg in different phases of therapy whereas in group B mean daily dose of prazosin was 3.0-6.5 +/- 1.8 mg and propranolol 50-80 mg. Significant decrease in diastolic and systolic blood pressure (p < 0.01) was achieved in both groups. Additionally significant decrease in pulse rate (p < 0.01) was seen in group B. It was found that prazosin produced significant increase in plasma noradrenaline in group A and decrease in 4-hydroxy-3-methoxyglycol excretion with the urine (p < 0.05) in both groups. Moreover, negative correlation between a decrease in blood pressure (diastolic) and noradrenaline excretion with the urine (p < 0.05) was noted in group A. No effect of prazosin therapy on plasma renin activity, beta-endorphin and lipids blood levels was observed in both groups. These results suggest that prazosin therapy in patients with the primary blood hypertension exerts an effect on sympathetic activity and does not change plasma renin activity or blood beta-endorphin and lipids levels.     

Air movement and heat loss from sheep. III. Components of insulation in a controlled environment

The rate of sensible heat loss from a Clun Forest ewe was studied at several fleece depths in a temperature-controlled chamber. A simple resistance analogue was used to describe the heat flow from different body regions. Heat loss from the trunk depends largely on the mean fleece depth l. The fleece resistance was about 1.5 s cm-1 per centimetre depth. Heat transfer through the fleece was accounted for by molecular conduction, thermal radiation and free convection. The fleece conductivity -kb attributed to free convection depends on the mean temperature difference (-Tst---Tct) across the fleece according to the relation -kb = 8.0 (-Tst---Tct)0.53. Estimates of the sensible heat flux from the trunk at environmental temperatures, Ta, between 0 and 30 degrees C range from about 8 W (l = 7.0 cm, Ta = 30 degrees C) to about 160 W (l = 0.1 cm, Ta = 0 degrees C). In contrast, the sensible heat loss from the legs depends mainly on the local tissue resistance. For environmental temperatures between 0 and 30 degrees C, the calculated tissue resistance for this region of the body varied from about 8 to 1 s cm-1. The corresponding heat loss from the legs was between 10 and 20 W, compared with between 3 and 7 W from the head. The fastest heat loss from the legs occurred at an environmental temperature of about 12 degrees C. Although the proportion of the heat loss from the extremities depends on environmental temperature, the total heat loss (sensible or latent) was closely related to the mean skin temperature of the trunk.     

Effect of dietary polyunsaturated/saturated fatty acid ratio on heat production and growth performance of chicks under different ambient temperature

Two trials were conducted to investigate the influence of dietary polyunsaturated/saturated fatty acid ratio (P/S) on growth performance and heat production (HP) of chicks under different ambient temperature (Ta). With the exception of Ta, all other treatment processes for two trials were the same. In each trial, 120 Arbor Acres 1-day-old male chicks were allotted to 2 (P/S, 0.6 or 2.4) × 2 (high or low Ta) factorial design with six replicates of five chicks each treatment. Chicks were reared in wire-floored metabolism cages in two temperature-controlled chambers, and were exposed to high Ta (37 and 38 °C at the first day for trial 1 and 2, respectively, and decreased 0.2 °C/day) or low Ta (33 and 28 °C at the first day for trial 1 and 2, respectively, and decreased 0.3 °C/day), for 3 weeks. Chicks were fed ad libitum. Body weight, feed intake and gain:feed were recorded. Excreta were collected for determining metabolizable energy. Energy retention was measured by the comparative slaughter technique; HP was calculated as the difference between metabolizable energy intake and body energy retention.

The results showed that high Ta decreased weight gain (P < 0.01) and feed intake (P < 0.01) in both trials, improved gain:feed in trial 2 (P < 0.01), and decreased HP in trial 2 (P < 0.01) of chicks during 0–3 weeks of age. Increasing dietary P/S did not affect the growth performance and HP of chicks during 0–3 weeks of age. No Ta × dietary P/S interaction among growth performance and HP in chicks was observed.

In summary, increasing dietary P/S did not affect HP, therefore, it is neither detrimental to the growth of chicks reared under high Ta nor is beneficial to the growth of chicks reared under low Ta.     

根田鼠的活动代谢率

在15～30℃温度范围内, 运用踏车呼吸室以5 m/min, 10 m/min 和15 m/min 的运动速度, 对栖息于青海高原的根田鼠的代谢率、体温、蒸发失水进行了测定, 并计算了每个温度和运动速度时的热传导率。根田鼠的体温在任一速度时, 随环境温度的增加而增加, 当环境温度一定时, 体温随运动强度而升高, 代谢率随运动速度增加而增加。活动产热在低温条件下, 可能是对寒冷产热的替代, 而在比较缓和的温度时, 可能是对冷诱导产热的附加。温度一定时, 蒸发失水随运动速度增加而增加, 热传导也呈相似的变化趋势(15℃除外)。热传导在任一运动速度下, 随环境温度增加而增加。结果表明蒸发散热在高温或活动期间对根田鼠的体温调节有不可替代的作用。